US12315330B2 - Chip tracking system - Google Patents

Abstract

A method and apparatus for a chip tracking system. For example, an apparatus comprises a chip tray and a tracking controller. The chip tray has a plurality of light sensors positioned inside a column. In some instances, the tracking controller is configured to perform operations that cause the apparatus to detect a level of ambient light at each of the plurality of light sensors and determine, in response to detection of the level of ambient light at each of the plurality of light sensors, a number of gaming chips placed inside the column. The tracking controller is further configured to perform operations that cause the apparatus to compute, in response to determination of the number of gaming chips, a chip-column value. In some instances, the tracking controller is further configured to automatically indicate the chip-column value via one or more electronic devices communicatively coupled to the chip tray.

Description

CROSS-REFERENCE TO RELATED APPLICATION

This application claims the priority benefit of U.S. Provisional Patent Application No. 63/212,771 filed Jun. 21, 2021, which is incorporated by reference herein in its entirety.

COPYRIGHT

A portion of the disclosure of this patent document contains material which is subject to copyright protection. The copyright owner has no objection to the facsimile reproduction by anyone of the patent disclosure, as it appears in the Patent and Trademark Office patent files or records, but otherwise reserves all copyright rights whatsoever. Copyright 2022 LNW Gaming, Inc.

FIELD OF THE INVENTION

The present invention relates generally to gaming systems, apparatus, and methods and, more particularly, to tracking of physical objects in a gaming environment.

BACKGROUND

Casino gaming environments are dynamic environments in which people, such as players, casino patrons, casino staff, etc., take actions that affect the state of the gaming environment, the state of players, etc. For example, a player may use one or more physical tokens to place wagers on the wagering game. A player may perform hand gestures to perform gaming actions and/or to communicate instructions during a game, such as making gestures to hit, stand, fold, etc. Further, a player may move physical cards, dice, gaming props, etc. A multitude of other actions and events may occur at any given time. To effectively manage such a dynamic environment, the casino operators may employ one or more tracking systems or techniques to monitor aspects of the casino gaming environment, such as credit balance, player account information, player movements, game play events, and the like.

However, one challenge to such tracking systems is tracking the complexity of the system elements, particularly regarding the tracking of money. For example, multiple cameras at, or around, a gaming table may take pictures of casino tokens (e.g., casino chips) at a gaming table from different perspectives (i.e., from the perspective of the camera lenses). A computer then analyses the images to detect the differences between visible features of objects in the images. However, certain image characteristics (e.g., colors, object outlines, etc.) can appear different from image to image based on slight differences in environmental lighting and/or based on in changes of perspective of the cameras used to take the images of the objects. Consequently, some contemporary systems fail to identify some objects. Others require significant computing resources to capture highly detailed images of chips sufficient to identify the visible features needed to determine chip values.

Accordingly, a new tracking system that is adaptable to the challenges of dynamic casino gaming environments is desired.

SUMMARY

According to one aspect of the present disclosure, an apparatus is provided for chip tracking. For example, the apparatus includes a chip tray and a tracking controller. The chip tray has a plurality of light sensors positioned inside a column. In some instances, the tracking controller is configured to perform operations that cause the apparatus to detect a level of ambient light at each of the plurality of light sensors and determine, in response to detection of the level of ambient light at each of the plurality of light sensors, a number of gaming chips placed inside the column. The tracking controller is further configured to perform operations that cause the apparatus to compute, in response to determination of the number of gaming chips, a chip-column value. In some instances, the tracking controller is configured to perform operations that cause the apparatus to automatically indicate the chip-column value via one or more electronic devices communicatively coupled to the chip tray.

Additional aspects of the invention will be apparent to those of ordinary skill in the art in view of the detailed description of various embodiments, which is made with reference to the drawings, a brief description of which is provided below.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG.1 is a diagram of an example gaming system with a chip tray according to one or more embodiments of the present disclosure.

FIG.2 is an architectural diagram of an exemplary gaming system having a chip tray according to one or more embodiments of the present disclosure.

FIG.3 is a diagram of an exemplary sensor system for a chip tray according to one or more embodiments of the present disclosure.

FIGS.4A,4B, and4C are diagrams that illustrate different perspective views of a column of a chip tray according to one or more embodiments of the present disclosure.

FIG.5 is a diagram of an exemplary chip tray according to one or more embodiments of the present disclosure.

FIG.6 is a flow diagram of an example method according to one or more embodiments of the present disclosure.

FIG.7 is a perspective view of a gaming table configured for implementation of embodiments of wagering games in accordance with this disclosure.

FIG.8 is a perspective view of an individual electronic gaming device configured for implementation of embodiments of wagering games in accordance with this disclosure.

FIG.9 is a top view of a table configured for implementation of embodiments of wagering games in accordance with this disclosure.

FIG.10 is a perspective view of another embodiment of a table configured for implementation of embodiments of wagering games in accordance with this disclosure, wherein the implementation includes a virtual dealer.

FIG.11 is a schematic block diagram of a gaming system for implementing embodiments of wagering games in accordance with this disclosure.

FIG.12 is a schematic block diagram of a gaming system for implementing embodiments of wagering games including a live dealer feed.

FIG.13 is a block diagram of a computer for acting as a gaming system for implementing embodiments of wagering games in accordance with this disclosure.

FIG.14 illustrates an embodiment of data flows between various applications/services for supporting the game, feature or utility of the present disclosure for mobile/interactive gaming.

While the invention is susceptible to various modifications and alternative forms, specific embodiments have been shown by way of example in the drawings and will be described in detail herein. It should be understood, however, that the invention is not intended to be limited to the particular forms disclosed. Rather, the invention is to cover all modifications, equivalents, and alternatives falling within the spirit and scope of the invention as defined by the appended claims.

DETAILED DESCRIPTION

While this invention is susceptible of embodiment in many different forms, there is shown in the drawings, and will herein be described in detail, preferred embodiments of the invention with the understanding that the present disclosure is to be considered as an exemplification of the principles of the invention and is not intended to limit the broad aspect of the invention to the embodiments illustrated. For purposes of the present detailed description, the singular includes the plural and vice versa (unless specifically disclaimed); the words “and” and “or” shall be both conjunctive and disjunctive; the word “all” means “any and all”; the word “any” means “any and all”; and the word “including” means “including without limitation.”

For purposes of the present detailed description, the terms “wagering game,” “casino wagering game,” “gambling,” “slot game,” “casino game,” and the like include games in which a player places at risk a sum of money or other representation of value, whether or not redeemable for cash, on an event with an uncertain outcome, including without limitation those having some element of skill. In some embodiments, the wagering game involves wagers of real money, as found with typical land-based or online casino games. In other embodiments, the wagering game additionally, or alternatively, involves wagers of non-cash values, such as virtual currency, and therefore may be considered a social or casual game, such as would be typically available on a social networking web site, other web sites, across computer networks, or applications on mobile devices (e.g., phones, tablets, etc.). When provided in a social or casual game format, the wagering game may closely resemble a traditional casino game, or it may take another form that more closely resembles other types of social/casual games.

FIG.1 is a diagram of anexample gaming system100 with a light-tracking chip tray according to one or more embodiments of the present disclosure. Thegaming system100 includes an overhead view of a gaming table101 and a light-tracking, chip tray (e.g., chip tray130). Thechip tray130 can hold gaming tokens, such as gaming chips (“chips131”), tiles, etc., which a dealer can use to exchange a player's money for physical gaming tokens. Thechips131 rest within one or more vertical, semi-cylindrical slots or columns (e.g., columns132) of thechip tray130. Each of thecolumns132 has aseparate sensor array145. Eachsensor array145 has a plurality oflight sensors155 positioned inside thecolumns132 such that when any one of thechips131 is placed inside thecolumn132, the edge of the chip physically covers one of thelight sensors155. When one of thechips131 covers one of thelight sensors155, it preventsambient light121 from reaching the blocked one of thelight sensors155. Theambient light121 comes from one or morelight sources120 from the gaming environment at, or around, around the gaming table101. Examples oflight sources120 from the gaming environment may include overhead lighting, effects lighting, signage, attract lighting, emotive lighting, game display lighting, light projected from aprojector103, etc. Thelight sensors155 are photoelectric devices that convert light energy (photons) whether visible or infra-red light into an electrical (electrons) signal. For instance, in one embodiment, thelight sensors155 are light dependent resistors (LDRs). In another embodiment, thelight sensors155 are photodiode-based proximity sensors.

The arrangement of thesensors arrays145 are shown in the example ofFIG.1 to be aligned vertically along acolumn132 and are incorporated with (e.g., affixed to, embedded into, etc.) the physical structure of thechip tray130, such as at the bottom of the columns132 (e.g., seeFIGS.4A,4B, and4C for more details).

A controller (e.g., tracking controller204) is configured to electronically track lighting levels of each sensor in thesensor arrays145 to determine which sensors are blocked bychips131.

In some embodiments, thegaming system100 includes acamera102 and an indicator device that presents data about the chips, such theprojector103, a display, speakers, etc. In some embodiments, thecamera102 captures a stream of images of a gaming area, such as an area encompassing atop surface104 of the gaming table101. Theprojector103 can also project images of gaming content toward thesurface104 relative to objects in the gaming area. In some instances, theprojector103 is configured to project images of gaming content relevant to some elements of a wagering game that are common, or related, to any or all participants (e.g., theprojector103 projects gaming content at a communal presentation area114). In some instances, thecamera102 is positioned above thesurface104 and to the left of afirst player area105. Thecamera102 has a lens that is pointed at the gaming table101 in a way that views portions of thesurface104 relevant to game play (such as the chip tray130) and that views game participants (e.g., players, dealer, back-betting patrons, etc.) positioned around the gaming table101 (at thedifferent player areas105,106,107,108,109, and110). In some embodiments, thecamera102 also views thechip tray130. Theprojector103 is also positioned above the gaming table101, and also to the left of thefirst player area105. In some instances, the trackingcontroller204 also analyzes images taken by the camera102 (or other cameras positioned at the gaming table101). For example, the trackingcontroller204 can perform feature set extraction, object classification, etc. via use of a machine learning model (e.g., a neural network model). The machine learning model is trained to identify chips as objects and classify the chips according to denomation value based on observation of the color patterns on the edges of the chips.

In some embodiments, the trackingcontroller204 is also configured to automatically detect physical objects in a gaming environment as points of interest based on electronic analysis of an image performed by one or more additional neural network models. For example, thegaming system100 can detect one or more points of interest by detecting, via a neural network model, physical features of the image that appear at thesurface104. For example, the trackingcontroller204 is configured to monitor the gaming area (e.g., physical objects within the gaming area), and determine a relationship between one or more of the objects. The trackingcontroller204 can further receive and analyze collected sensor data (e.g., receives and analyzes the captured image data from the camera102) to detect and monitor physical objects. The trackingcontroller204 can establish data structures relating to various physical objects detected in the image data. For example, the trackingcontroller204 can apply one or more image neural network models during image analysis that are trained to detect aspects of physical objects. In at least some embodiments, each model applied by the trackingcontroller204 may be configured to identify a particular aspect of the image data and provide different outputs for any physical objected identified such that the trackingcontroller204 may aggregate the outputs of the neural network models together to identify physical objects as described herein. The trackingcontroller204 may generate data objects for each physical object identified within the captured image data. The data objects may include identifiers that uniquely identify the physical objects such that the data stored within the data objects is tied to the physical objects. The trackingcontroller204 can further store data in a database, such asdatabase system208 inFIG.2.

In some embodiments, the trackingcontroller204 is configured to detect bank-change events, or in other words, events that occur in the gaming environment that would affect a change to the overall value of the bank ofchips131 within thechip tray130, such as buy-ins, won bets, and pay-outs. For example, the trackingcontroller204 identifies betting circles (e.g., main bettingcircles105A,106A,107A,108A,109A, and110A (“105A-110A”) and secondary bettingcircles105B,106B,107B,108B,109B, and110B (“105B-110B”)). The trackingcontroller204 also detects placement of gaming chips (e.g., as stacks) within the betting circles during betting on a wagering game conducted at the gaming table101. The trackingcontroller204 can further determine the values of chip stacks within the betting circles. The trackingcontroller204 determines, based on the values of the chip stacks, amounts by which the bank is expected to change based on collection of losing bets and/or payouts required for winning bets. The trackingcontroller204 can compare the expected amounts to actual changes to thechips131 in thechip tray130. Based on the comparison, the trackingcontroller204, for instance, determines whether there are any errors in placement of chips of one denomination value into a column for a different denomination value. The trackingcontroller204 can further generate warnings (e.g. of the errors of placement of chips in the wrong column) and/or generate reports that tracks the accuracy of a dealer's handling of the chips into and out of the bank.

Some objects may be included at the gaming table101, such as cards, a card shoe, dice, etc. but are not shown inFIG.1 for simplicity of description.

FIG.2 is an architectural diagram of anexemplary gaming system200 having a chip tray, such aschip tray130, according to one or more embodiments of the present disclosure. In the example embodiment, thegaming system200 includes agame controller202, the trackingcontroller204, thechip tray130, and atracking database system208. Thechip tray130 includes a light-sensor system206 configured to track a level of ambient light at various sensor positions with thechip tray130. In some embodiments, the light-sensor system206 includes a plurality oflight sensors155 arranged insensor arrays145 and affixed to the physical structure of thechip tray130. In other embodiments, thegaming system200 may include additional, fewer, or alternative components, including those described elsewhere herein. Furthermore, in some embodiments, thechip tray130 includes one or more input devices (“input device(s)207”) as well as one or more output devices (“output device(s)209”). For example, the input devices may include controls (e.g., buttons, a mouse, wireless control devices, etc.) that an operator (e.g., a dealer, a pit boss, etc.) can use to program information, such as column names, denomination values, warning messages, default amounts, etc. In some instances, the output device(s)209 may include one or more displays, digital read-outs, speakers, etc. (e.g., seeelectronic displays475 and/or575 on thechip tray130 as described inFIG.4 andFIG.5).

Thegaming area201 is an environment in which one or more casino wagering games are provided. In the example embodiment, thegaming area201 is a casino gaming table and the area surrounding the table (e.g., as inFIG.1). In other embodiments, othersuitable gaming areas201 may be monitored by thegaming system200. For example, thegaming area201 may include one or more floor-standing electronic gaming machines. In another example, multiple gaming tables may be monitored by thegaming system200. Although the description herein may reference a gaming area (such as gaming area201) to be a single gaming table and the area surrounding the gaming table, it is to be understood thatother gaming areas201 may be used with thegaming system200 by employing the same, similar, and/or adapted details as described herein.

Thegame controller202 is configured to facilitate, monitor, manage, and/or control gameplay of the one or more games at thegaming area201. More specifically, thegame controller202 is communicatively coupled to at least one or more of the trackingcontroller204, thesensor system206, thetracking database system208, agaming device210, anexternal interface212, and/or aserver system214 to receive, generate, and transmit data relating to the games, the players, thechips131 and/or thegaming area201. Thegame controller202 may include one or more processors, memory devices, and communication devices to perform the functionality described herein. More specifically, the memory devices store computer-readable instructions that, when executed by the processors, cause thegame controller202 to function as described herein, including communicating with the devices of thegaming system200 via the communication device(s).

Thegame controller202 may be physically located at thegaming area201 as shown inFIG.2 or remotely located from thegaming area201. In certain embodiments, thegame controller202 may be a distributed computing system. That is, several devices may operate together to provide the functionality of thegame controller202. In such embodiments, at least some of the devices (or their functionality) described inFIG.2 may be incorporated within the distributedgame controller202.

Thegaming device210 is configured to facilitate one or more aspects of a game. For example, for card-based games, thegaming device210 may be a card shuffler, shoe, or other card-handling device. Theexternal interface212 is a device that presents information to a player, dealer, or other user and may accept user input to be provided to thegame controller202. In some embodiments, theexternal interface212 may be a remote computing device in communication with thegame controller202, such as a player's mobile device. In other examples, thegaming device210 and/orexternal interface212 includes one or more projectors. Theserver system214 is configured to provide one or more backend services and/or gameplay services to thegame controller202. For example, theserver system214 may include accounting services to monitor wagers, payouts, and jackpots for thegaming area201. In another example, theserver system214 is configured to control gameplay by sending gameplay instructions or outcomes to thegame controller202. It is to be understood that the devices described above in communication with thegame controller202 are for exemplary purposes only, and that additional, fewer, or alternative devices may communicate with thegame controller202, including those described elsewhere herein.

In the example embodiment, the trackingcontroller204 is in communication with thegame controller202. In other embodiments, the trackingcontroller204 is integrated with thegame controller202 such that thegame controller202 provides the functionality of the trackingcontroller204 as described herein. Like thegame controller202, the trackingcontroller204 may be a single device or a distributed computing system. In one example, the trackingcontroller204 may be at least partially located remotely from thegaming area201. That is, the trackingcontroller204 may receive data from one or more devices located at the gaming area201 (e.g., thegame controller202 and/or the sensor system206), analyze the received data, and/or transmit data back based on the analysis.

In the example embodiment, the trackingcontroller204, similar to theexample game controller202, includes one or more processors, a memory device, and at least one communication device. The memory device is configured to store computer-executable instructions that, when executed by the processor(s), cause thetracking controller204 to perform the functionality of the trackingcontroller204 described herein. The communication device is configured to communicate with external devices and systems using any suitable communication protocols to enable thetracking controller204 to interact with the external devices and integrates the functionality of the trackingcontroller204 with the functionality of the external devices. The trackingcontroller204 may include several communication devices to facilitate communication with a variety of external devices using different communication protocols.

The trackingcontroller204 is configured to monitor at least one or more aspects of thegaming area201. In the example embodiment, the trackingcontroller204 is configured to monitor physical objects within thearea201, and determine a relationship between one or more of the objects. Some objects may include gaming tokens. The tokens may be any physical object (or set of physical objects) used to place wagers. As used herein, the term “stack” refers to one or more gaming tokens physically grouped together. For circular tokens typically found in casino gaming environments (e.g., gaming chips), these may be grouped together into a vertical stack (e.g., when placed onto a betting spot) or grouped vertically within a column of a chip tray, such as any of thecolumns132 of thechip tray130. In another example in which the tokens are monetary bills and coins, a group of bills and coins may be considered a “stack” based on the physical contact of the group with each other and other factors as described herein.

In the example embodiment, the trackingcontroller204 is communicatively coupled to thesensor system206 to monitor thegaming area201. More specifically, thesensor system206 includes one or more sensors configured to collect sensor data associated with the gaming area201 (e.g.,light sensors155 of the chip tray130), and the trackingcontroller204 receives and analyzes the collected sensor data to detect and monitor physical objects (e.g., chips131). Thesensor system206 may include any suitable number, type, and/or configuration of sensors to provide sensor data to thegame controller202, the trackingcontroller204, and/or another device that may benefit from the sensor data.

In another embodiment, thesensor system206 includes at least one image sensor that is oriented to capture image data of physical objects in thegaming area201. In one example, thesensor system206 may include a single image sensor that monitors thegaming area201. In another example, thesensor system206 includes a plurality of image sensors that monitor subdivisions of thegaming area201. The image sensor may be part of a camera unit of thesensor system206 or a three-dimensional (3D) camera unit in which the image sensor, in combination with other image sensors and/or other types of sensors, may collect depth data related to the image data, which may be used to distinguish between objects within the image data. The image data is transmitted to thetracking controller204 for analysis as described herein. In some embodiments, the image sensor is configured to transmit the image data with limited image processing or analysis such that the trackingcontroller204 and/or another device receiving the image data performs the image processing and analysis. In other embodiments, the image sensor may perform at least some preliminary image processing and/or analysis prior to transmitting the image data. In such embodiments, the image sensor may be considered an extension of the trackingcontroller204, and as such, functionality described herein related to image processing and analysis that is performed by the trackingcontroller204 may be performed by the image sensor (or a dedicated computing device of the image sensor). In certain embodiments, thesensor system206 may include, in addition to or instead of the image sensor, one or more sensors configured to detect objects, such as light sensors, time-of-flight sensors, radar sensors (e.g., LIDAR), thermographic sensors, and the like.

The trackingcontroller204 is configured to establish data structures relating to various physical objects detected in the collected data from the sensor(s). For example, the trackingcontroller204 applies one or more image neural network models during image analysis that are trained to detect aspects of physical objects. Neural network models are analysis tools that classify “raw” or unclassified input data without requiring user input. That is, in the case of the raw image data captured by the image sensor, the neural network models may be used to translate patterns within the image data to data object representations of, for example, tokens, faces, hands, etc., thereby facilitating data storage and analysis of objects detected in the image data as described herein.

At a simplified level, neural network models are a set of node functions that have a respective weight applied to each function. The node functions and the respective weights are configured to receive some form of raw input data (e.g., image data), establish patterns within the raw input data, and generate outputs based on the established patterns. The weights are applied to the node functions to facilitate refinement of the model to recognize certain patterns (i.e., increased weight is given to node functions resulting in correct outputs), and/or to adapt to new patterns. For example, a neural network model may be configured to receive input data, detect patterns in the image data representing human body parts, perform image segmentation, and generate an output that classifies one or more portions of the image data as representative of segments of a player's body parts (e.g., a box having coordinates relative to the image data that encapsulates a face, an arm, a hand, etc. and classifies the encapsulated area as a “human,” “face,” “arm,” “hand,” etc.).

For instance, to train a neural network to identify the most relevant guesses for identifying a human body part, for example, a predetermined dataset of raw image data including image data of human body parts, and with known outputs, is provided to the neural network. As each node function is applied to the raw input of a known output, an error correction analysis is performed such that node functions that result in outputs near or matching the known output may be given an increased weight while node functions having a significant error may be given a decreased weight. In the example of identifying a human face, node functions that consistently recognize image patterns of facial features (e.g., nose, eyes, mouth, etc.) may be given additional weight. Similarly, in the example of identifying a human hand, node functions that consistently recognize image patterns of hand features (e.g., wrist, fingers, palm, etc.) may be given additional weight. The outputs of the node functions (including the respective weights) are then evaluated in combination to provide an output such as a data structure representing a human face. Training may be repeated to further refine the pattern-recognition of the model, and the model may still be refined during deployment (i.e., raw input without a known data output).

At least some of the neural network models applied by the trackingcontroller204 may be deep neural network (DNN) models. DNN models include at least three layers of node functions linked together to break the complexity of image analysis into a series of steps of increasing abstraction from the original image data. For example, for a DNN model trained to detect human faces from an image, a first layer may be trained to identify groups of pixels that represent the boundary of facial features, a second layer may be trained to identify the facial features as a whole based on the identified boundaries, and a third layer may be trained to determine whether or not the identified facial features form a face and distinguish the face from other faces. The multi-layered nature of the DNN models may facilitate more targeted weights, a reduced number of node functions, and/or pipeline processing of the image data (e.g., for a three-layered DNN model, each stage of the model may process three frames of image data in parallel).

In at least some embodiments, each model applied by the trackingcontroller204 may be configured to identify a particular aspect of the image data and provide different outputs such that the trackingcontroller204 may aggregate the outputs of the neural network models together to identify physical objects as described herein. For example, one model may be trained to identify human faces, while another model may be trained to identify the bodies of players. In such an example, the trackingcontroller204 may link together a face of a player to a body of the player by analyzing the outputs of the two models. In other embodiments, a single DNN model may be applied to perform the functionality of several models.

As described in further detail below, the trackingcontroller204 may generate data objects for each physical object identified within the captured image data by the DNN models. The data objects are data structures that are generated to link together data associated with corresponding physical objects. For example, the outputs of several DNN models associated with a player may be linked together as part of a player data object.

It is to be understood that the underlying data storage of the data objects may vary in accordance with the computing environment of the memory device or devices that store the data object. That is, factors such as programming language and file system may vary the where and/or how the data object is stored (e.g., via a single block allocation of data storage, via distributed storage with pointers linking the data together, etc.). In addition, some data objects may be stored across several different memory devices or databases.

In some embodiments, the player data objects include a player identifier, and data objects of other physical objects include other identifiers. The identifiers uniquely identify the physical objects such that the data stored within the data objects is tied to the physical objects. In some embodiments, the identifiers may be incorporated into other systems or subsystems. For example, a player account system may store player identifiers as part of player accounts, which may be used to provide benefits, rewards, and the like to players. In certain embodiments, the identifiers may be provided to thetracking controller204 by other systems that may have already generated the identifiers.

In at least some embodiments, the data objects and identifiers may be stored by thetracking database system208. Thetracking database system208 includes one or more data storage devices (e.g., one or more databases) that store data from at least the trackingcontroller204 in a structured, addressable manner. That is, thetracking database system208 stores data according to one or more linked metadata fields that identify the type of data stored and can be used to group stored data together across several metadata fields. The stored data is addressable such that stored data within thetracking database system208 may be tracked after initial storage for retrieval, deletion, and/or subsequent data manipulation (e.g., editing or moving the data). Thetracking database system208 may be formatted according to one or more suitable file system structures (e.g., FAT, exFAT, ext4, NTFS, etc.).

Thetracking database system208 may be a distributed system (i.e., the data storage devices are distributed to a plurality of computing devices) or a single device system. In certain embodiments, thetracking database system208 may be integrated with one or more computing devices configured to provide other functionality to thegaming system200 and/or other gaming systems. For example, thetracking database system208 may be integrated with the trackingcontroller204 or theserver system214.

In the example embodiment, thetracking database system208 is configured to facilitate a lookup function on the stored data for the trackingcontroller204. The lookup function compares input data provided by the trackingcontroller204 to the data stored within thetracking database system208 to identify any “matching” data. It is to be understood that “matching” within the context of the lookup function may refer to the input data being the same, substantially similar, or linked to stored data in thetracking database system208. For example, if the input data is an image of a player's face, the lookup function may be performed to compare the input data to a set of stored images of historical players to determine whether or not the player captured in the input data is a returning player. In this example, one or more image comparison techniques may be used to identify any “matching” image stored by thetracking database system208. For example, key visual markers for distinguishing the player may be extracted from the input data and compared to similar key visual markers of the stored data. If the same or substantially similar visual markers are found within thetracking database system208, the matching stored image may be retrieved. In addition to or instead of the matching image, other data linked to the matching stored image may be retrieved during the lookup function, such as a player account number, the player's name, etc. In at least some embodiments, thetracking database system208 includes at least one computing device that is configured to perform the lookup function. In other embodiments, the lookup function is performed by a device in communication with the tracking database system208 (e.g., the tracking controller204) or a device in which thetracking database system208 is integrated within.

FIG.3 is a diagram of an exemplary sensor system (e.g., sensor system206) for thechip tray130 according to one or more embodiments of the present disclosure. In the example illustrated inFIG.3, thesensor system206 includes at least one of a plurality ofcolumn modules301 for each one of thecolumns132 of thechip tray130. In some embodiments, each one of thecolumn modules301 is equivalent to each one of thesensor arrays145 positioned in each of thecolumns132. In one embodiment. Thesensor system206 utilizesLDRs355 as examples of thelight sensors155 described previously. Each of theLDRs355 are connected to aresistor356 in a voltage divider circuit, the output of which is connected to acomparator357. The combination of theLDR355, theresistor356, and thecomparator357 may be referred to more succinctly as asensor unit350. Each of thecomparators357 connect the voltage divider circuits to amicrocontroller358 as shown inFIG.3. Themicrocontroller358 is connected to acommunication bus360. Each of thecolumn modules301 are connected to each other via thecommunication bus360. Each one of thecomparators357 compares an output from its respective one of theLDRs355 to a calibrated threshold value (measured by a threshold sensor359). Thethreshold sensor359 may be equivalent to a sensor unit350 (e.g., it includes anLDR355, aresistor356, and a comparator357). Thethreshold sensor359 is calibrated to the level of environmental lighting in the gaming environment. In some instances, thethreshold sensor359 is not positioned in thecolumn132 and is not covered by one of thechips131. In another embodiment, thethreshold sensor359 is the sensor that is at the highest portion (the top vertical portion) of asensor array145, such assensor556 as shown inFIG.5. For instance, as described in more detail inFIG.4C, acolumn132 has a downward slope (e.g., seecolumn132 which has slight angle of decline414). In other words, when thebottom portion416 of thechip tray130 is resting against a flat plane on the gaming table101, thecolumns132 slope downward so that thechips131 slide downward within theirrespective column132 due to gravity. Consequently, the highest sensor in thearray145 would be the last to be covered up by achip131 as allother chips131 in the given column would slide downward within thecolumn132. Thus, if thethreshold sensor359 is at the top of the array as shown inFIG.5, then it would be the last sensor in the array to be covered up, and thus can function as thethreshold array359 until it is covered up. If the amount of light sensed from thethreshold sensor359 is less than that of any other threshold sensor349 in another column, then thecolumn132 may be considered full. In other embodiments, thethreshold sensor359 is not covered (e.g., it is outside of the column132), and thus functions as a baseline measurement for the level of ambient light at all times. In some embodiments, thesensor system206 utilizes asingle threshold sensor359 as a baseline, ambient-light reference for theentire chip tray130.

The components of the sensor system206 (e.g., theLDRs355, thecomparators357, theresistors356, themicrocontroller358, etc.) may be surface mounted devices (SMDs) placed on a printed circuit board (PCB) connected with etched circuit lines (e.g., see printed-circuit board460 inFIG.4). The trackingcontroller204 receives data from the light-sensor system206 for each of thecolumn modules301. Thus, the trackingcontroller204 calculates the number ofchips131 in eachcolumn132. In some embodiments, the data is sent via an inter-integrated circuit (I²C) communication protocol. The trackingcontroller204 can access each module using thebus360 by addressing eachcolumn module301 individually.

FIGS.4A,4B, and4C are diagrams that illustrate different perspective views of a column of a chip tray according to one or more embodiments of the present disclosureFIG.4A illustrates a portion of a single one of thecolumns132. Different portions of the same one of thecolumns132 are illustrated inFIGS.4B and4C from different viewing angles. InFIG.4A, a display is shown475 that indicates avalue476 of thechips131 within the givencolumn132. As illustrated inFIG.4B, the givencolumn132 may be designated forchips131 having a denomination of “twenty-five” betting units (e.g., a $25 chip). Consequently, the trackingcontroller204 detects, via thesensor system206, the number ofchips131 within the given column132 (designated for $25 chips). The trackingcontroller204, for instance, detects the presence of five chips in thecolumn132. The trackingcontroller204 multiples the five chips by twenty-five dollars each, which computes to one-hundred twenty five dollars ($125). As a result, thedisplay475 presents (e.g., digitally illustrates) thevalue476 of “125.” In some embodiments, thechip tray130 also includes a display (not shown) that illustrates a total amount of chips in thechip tray130 at any given time.

The arrangement of thesensors arrays145 can be aligned vertically along acolumn132 and incorporated with the physical structure of thechip tray130, such as at the bottom of thecolumns132. For example, openings (e.g., holes448) are formed through the material of thechip tray130 at the bottom of each of thecolumns132 such that thesensors155 are positioned under theholes448. In some embodiments, the sensors in thesensor array145 are positioned a given distance apart from each other. In some embodiments, the given distance from each other corresponds to the thickness (i.e., the height) of a standard chip (e.g., approximately 3.3 mm). Consequently, in some embodiments, thechip tray130 is configured so that a single one oflight sensors155 corresponds to a single one of the given chips131 (i.e., in a 1:1 ratio). Furthermore, because (according to some embodiments) the spacing of any given one of thesensors155 corresponds to the thickness of a single one of thechips131, then the spacing440 between the holes448 (through which the sensors144 are exposed) are less than the thickness of a standard chip.

A transparent material is positioned over theholes448, such as a window or a lens (e.g., windows438), to cover and protect thesensor155 from dust or debris. The material of thewindows438 is transparent to permit theambient light121 to shine through it to reach the one of thesensors155 beneath. In some instances, thewindow438 is shaped as a lens to focus or amplify the ambient light shining through thewindow438 onto one of therespective sensors155. Furthermore, the transparent barrier of thewindow438 protects thesensor155 from being directly exposed to dirt or debris.

In some embodiments, thelight sensors155 are organized into a vertical array. In one embodiment, thelight sensors155 are uniformly spaced and mounted underneath the chip tray430 along anunderside edge412 of the column432.

In some embodiments, thelight sensors155 are embedded into the material of thechip tray130. In some embodiments, a line of theholes448 are drilled through the material of an interiorcurved wall439 of thechip tray130 along a bottom of thecolumn132. In some embodiments, a givenlight sensor155 is positioned inside each drilled hole approximately 1 mm or less in distance from the interiorcurved wall439 of the chip column132 (upon which rests theedge480 of any of the given chips131).

As referred to briefly in the description related toFIG.3, in some embodiments, thecolumns132 are sloped downward at the slight angle of decline414 (e.g., at approximately a 5 degree angle of decline). In other words, when thebottom portion416 of thechip tray130 is resting against a flat plane on the gaming table101, thecolumns132 slope downward so that thechips131 slide downward (due to gravity). Thus, thearray145, from the perspective of thechip tray130, appears to be sloping downward. However, the faces of thelight sensors155 are aligned to be approximately perpendicular to the bottom portion of the interiorcurved wall439. In other words, the sensing faces of thelight sensors155 are positioned to be approximately perpendicular to the chip edges480, even though from the perspective of thechip tray130, thelight sensors155 themselves are at the slight angle ofdecline414.

FIG.5 is a diagram of an exemplary chip tray (e.g., chip tray130) according to one or more embodiments of the present disclosure. InFIG.5, eachindividual sensor155 fromsensor arrays145 detects a level of ambient light. The controller204 (e.g. seeFIG.2) analyzes data received from each of thesensors155, and tracks data for eachcolumn132 individually (e.g., to determine a level of ambient light reaching eachsensor155 in a column132), and collectively for allcolumns132 of thechip tray130.

Eachcolumn132 has a unique identifier (e.g. column A, column B, column C, and so forth). In some embodiments, the column names may correspond to standard chip denomination values (e.g., “1,” “5,” “10,” “25,” 100,” “500,” etc.). In some embodiments, thechip tray130 may include markings to indicate the column names (e.g., printed markings, digital illustrations, etc.). In some instances, thechip tray130 includeselectronic displays575, or other such devices, that graphically or digitally illustrates a value for any given column. In some instances, thechip tray130 is customizable. For example, thechip tray130 may include controls that an operator (e.g., a dealer, a pit boss, etc.) can use to program column names to specify denomination values (e.g., via the electronic displays575). Thedisplays575 may be interchangeable in function with displays475 (seeFIG.4A). In other words, displays475 may be utilized to designate a column name whereasdisplays575 may be utilized to designate a current total chip value for any givencolumn132.

In some embodiments, given that eachsensor array145 is affixed relative to its givencolumn132, eachsensor155 can be associated with alocation identifier518 for any given chip within any given column. Thelocation identifier518 may be stored in a data map (e.g., in database system208) that identifies a physical location of eachsensor155 within any givensensor array145 within thechip tray130 and maps the physical location to a coordinate (or group of coordinates) on a two-dimensional overlay grid (e.g., coordinates grid). Thus every givensensor155 in anarray145 can be associated with a single one of thechips131 for any chip stack in thechip tray130. Given the known height of a standard chip, the data map is constructed by mapping theheight515 upward from the bottom of a column to the top of a column. For example, given the knownheight515, the map thus determines which sensors from thesensor array145 are mapped to given coordinates (e.g., to a specific chip131). For instance,light sensors155 may be designated with coordinates indicating thelocation identifier518 of “(A, 1),” thus specifying the column identifier (e.g., column “A”) and the height identifier (e.g., “1”). In the example shown inFIG.5, the number oflight sensors155 corresponds to onelocation identifier518 in a 1-to-1 ratio (i.e., onelight sensor155 per location identifier518). However, in other embodiments, more than onelight sensor155 can correspond to asingle location identifier518. For instance, thearrays145 may be constructed to have multiple light sensors within thespace519 of one height identifier. For example, thelight sensors155 may be smaller than a thickness of a standard chip (i.e., multiple light sensors for the height of one chip). Multiple sensors per chip can provide more data to thetracking controller204. Furthermore, multiple sensors per chip can provide redundancy should one of thelight sensors155 fail within thearray145 during operation.

FIG.6 is a flow diagram of an example method flow (flow600) according to one or more embodiments of the present disclosure.

InFIG.6,flow600 begins atprocessing block602 where a processor (e.g., tracking controller204), detects, via an array of light sensors positioned within a chip tray column, a level of ambient light at each sensor location with the array. In some instances, the trackingcontroller204 detects the level of ambient light received at each sensor location by comparing the level of light received at any given sensor to that of a threshold sensor, which detects the level of ambient light at thechip tray130. In some embodiments, thechip tray130 includes one threshold sensor per eachcolumn132. In other embodiments, thechip tray130 includes less than a single threshold sensor for eachcolumn132, for example, a single threshold sensor for anentire chip tray130, or a limited set of threshold sensors placed at different locations on thechip tray130. For example, thechip tray130 may include threshold sensors at each corner of thechip tray130 and the trackingcontroller204 may utilize an average level of ambient light received at each of the threshold sensors as a baseline, or threshold value of the amount of ambient light in the gaming environment at or around the gaming table101 that shines onto thechip tray130 without being blocked by a chip. Thus, the trackingcontroller204 can compare any detected level of light at any given position of one of thesensors155 to the threshold value (detected via the threshold sensor(s)) to determine whether the given sensor155 (at the given position) is being blocked by a chip (thus indicating the presence of a chip at the given location of the given sensor155).

Referring back toFIG.6, theflow600 continues atprocessing block604, where the trackingcontroller204 determines, in response to detecting the level of ambient light at each sensor location, a number of gaming chips placed in the chip column. For example, as shown inFIG.4C, each of thechips131 covers a respective one of thesensors155 in thearray145. Thus, the trackingcontroller204 detects that the level of ambient light at each of those blocked sensors is less than that of the value detected by a threshold sensor. For example, if the trackingcontroller204 detects a five percent (5%) or more difference in light levels at any givensensor155 from that of the threshold value, then the trackingcontroller204 determines that at least one of the gaming chips131 is present at the sensor location (i.e., the trackingcontroller204 determines that a chip is blocking the ambient light at the sensor location).

Referring back toFIG.6, theflow600 continues atprocessing block606 where the trackingcontroller204 computes, in response to determining the number of gaming chips, a chip-column value. In some embodiments, the trackingcontroller204 determines the chip-column value based on at least the number of chips in any given column. For example, as shown in FIG.FIG.5, one of the columns132 (e.g., the column designated as column “B” inFIG.5), has fivechips131. Column “B” is designated for chips having the denomination value of “twenty-five” (e.g., $25 chips). Thus, the dealer only stacks $25 chips into that column. As a consequence, the trackingcontroller204 multiples the value of “5” (representing the five detected chips131) by the value of “25” (representing the designated denomination value for the given column), resulting in an amount of “125.”

In some instances, the trackingcontroller204 detects a color pattern for chips placed in a givencolumn132. For instance, a dealer may track the input and output ofchips131 from thechip tray130 by placing chips of only a certain denomination value into a designated subset of thecolumns132. For example, multiple ones of thecolumns132 may be designated to hold lower chip values (e.g., multiple ones of thecolumns132 may be designated to hold chips having a value of “1,” “5,” and “10” (e.g., $1, $5, $10); whereas each higher denomination (e.g., “25,” “50,” “100,” “500,” etc.), may be designated to only one of thecolumns132 respectively. The trackingcontroller204, thus, can optionally detect, via analysis of images of thechip tray130, whether any of thecolumns132 has a chip with an edge-color pattern that does not match that of others in the designated column. For example, the trackingcontroller204 can determine that a certain percentage of thechips131 in any given column have the same given edge-color pattern. In some embodiment, the trackingcontroller204 can determine (e.g., deduce) that the edge-color pattern that appears with the most frequency amongst the total number of chips in a given column is the default edge-color pattern for the designated denomination value for that given column. For example, in a column with at least three chips, if two or more possess the same edge-color pattern, the trackingcontroller204 can deduce that the chip-denomination value designated for the particular column equates to the chip-denomination value associated with that most-frequently-occurring edge-color pattern. In another embodiments, the trackingcontroller204 deduces the chip-denomination value associated with the column by determining the value associated with the edge-color pattern for a majority (or at least a relative majority) of the chips (i.e., the number or part of the total chips having the particular edge-color being greater than any other number or part). The trackingcontroller204 can then notify an operator (e.g., the dealer), that the mismatched chip is misplaced within an incorrect one of thecolumns132, and instead should be placed into a correct one of thecolumns132 designated for the specific denomination value. In some embodiments, the trackingcontroller204 utilizes the camera102 (seeFIG.1), to capture images of thechip tray130. The trackingcontroller204 can analyze the images, using a machine learning model (e.g. a neural network model), trained to detect the chip colors and/or edge patterns that distinguish the different chip denomination values. In some instances, the trackingcontroller204 determines, via the machine model analysis, whether a chip is an incorrect column (e.g., detects whether a $25 chip is in a column designated for $5 chips). In some instances, the trackingcontroller204 can detect, via electronic image analysis, which columns are designated to each chip denomination value. For example, in some instances, some dealers may switch up chip columns for different chip denomination values throughout a gaming session depending on given gaming conditions. For example, a dealer may have a high-roller or VIP table which requires large betting amounts. The participants may be betting large amounts of chips, and so the dealer may be dealing, during that gaming session, with large denomination values. As a consequence, the dealer may configure the use of thechip tray130 on the fly, to switch up which columns should be utilize for each given denomination value. However, the dealer may not have the time, during the session, to manually specify column denomination values using manual controls (e.g., using the input device(s) 207 mentioned inFIG.2). Consequently, in some embodiments, the trackingcontroller204 utilizes the machine learning model to automatically detect, in real-time, which columns the dealer is utilizing for given chip denomination values. The trackingcontroller204, thus, can detect column denomination values for a given stack of chips within any given column by detecting a common edge color or pattern amongst the chips already in a column. The trackingcontroller204 can further give warnings if a chip pattern is detected (via the image analysis), which is different from other chips in the given column. For example, if the difference in chips is high enough (e.g., above a $4 difference), then the trackingcontroller204 can generate a warning of a potentially misplaced chip or missing chips (generate warning for dealer, pitboss, etc.).

In some instances, the trackingcontroller204 provides real-time warnings (during a gaming session at the gaming table) to indicate potential errors in placement of chips within the stack by the dealer. In some embodiments, the trackingcontroller204 evaluates the placement of the chips and provides a report after a dealer session regarding potential errors.

Referring back toFIG.6, theflow600 continues atprocessing block608 with electronically indicating the chip stack value. For example, after thetracking controller204 computes a total monetary value for a chip stack in any given column, the trackingcontroller204 can indicate the total monetary value via a display (e.g., seedisplay475 inFIG.4). In other embodiments, the trackingcontroller204 can indicate the total monetary value via a display associated with an operator or administrator that is not at the gaming table101 (e.g., via a display associated with a computer or device of a pit boss, an accountant, a security officer, etc.). In other embodiments, the trackingcontroller204 can electronically indicate a chip-column value via an audio device, such as via a speaker. In some embodiments, the trackingcontroller204 can display a chip-column value in the form of a meter or gauge that displays a level of increase or decrease in value for the chip column.

FIG.7 is a perspective view of an embodiment of a gaming table1200 (which may be configured as the gaming table101) for implementing wagering games in accordance with this disclosure. The gaming table1200 may be a physical article of furniture around which participants in the wagering game may stand or sit and on which the physical objects used for administering and otherwise participating in the wagering game may be supported, positioned, moved, transferred, and otherwise manipulated. For example, the gaming table1200 may include a gaming surface1202 (e.g., a table surface) on which the physical objects used in administering the wagering game may be located. Thegaming surface1202 may be, for example, a felt fabric covering a hard surface of the table, and a design, conventionally referred to as a “layout,” specific to the game being administered may be physically printed on thegaming surface1202. As another example, thegaming surface1202 may be a surface of a transparent or translucent material (e.g., glass or plexiglass) onto which a projector, which may be located, for example, above or below thegaming surface1202, may illuminate a layout specific to the wagering game being administered. In such an example, the specific layout projected onto thegaming surface1202 may be changeable, enabling the gaming table1200 to be used to administer different variations of wagering games within the scope of this disclosure or other wagering games. In either example, thegaming surface1202 may include, for example, designated areas for player positions; areas in which one or more of player cards, dealer cards, or community cards may be dealt; areas in which wagers may be accepted; areas in which wagers may be grouped into pots; and areas in which rules, pay tables, and other instructions related to the wagering game may be displayed. As a specific, non-limiting example, thegaming surface1202 may be configured as any table surface described herein.

In some embodiments, the gaming table1200 may include adisplay1210 separate from thegaming surface1202. Thedisplay1210 may be configured to face players, prospective players, and spectators and may display, for example, information randomly selected by a shuffler device and also displayed on a display of the shuffler device; rules; pay tables; real-time game status, such as wagers accepted and cards dealt; historical game information, such as amounts won, amounts wagered, percentage of hands won, and notable hands achieved; the commercial game name, the casino name, advertising and other instructions and information related to the wagering game. Thedisplay1210 may be a physically fixed display, such as an edge lit sign, in some embodiments. In other embodiments, thedisplay1210 may change automatically in response to a stimulus (e.g., may be an electronic video monitor).

The gaming table1200 may include particular machines and apparatuses configured to facilitate the administration of the wagering game. For example, the gaming table1200 may include one or more card-handlingdevices1204A,1204B. The card-handlingdevice1204A may be, for example, a shoe from whichphysical cards1206 from one or more decks of intermixed playing cards may be withdrawn, one at a time. Such a card-handlingdevice1204A may include, for example, a housing in whichcards1206 are located, an opening from whichcards1206 are removed, and a card-presenting mechanism (e.g., a moving weight on a ramp configured to push a stack of cards down the ramp) configured to continually presentnew cards1206 for withdrawal from the shoe.

In some embodiments in which the card-handlingdevice1204A is used, the card-handlingdevice1204A may include a random number generator151 and the display152, in addition to or rather than such features being included in a shuffler device. In addition to the card-handlingdevice1204A, the card-handlingdevice1204B may be included. The card-handlingdevice1204B may be, for example, a shuffler configured to select information (using a random number generator), to display the selected information on a display of the shuffler, to reorder (either randomly or pseudo-randomly)physical playing cards1206 from one or more decks of playing cards, and to presentrandomized cards1206 for use in the wagering game. Such a card-handlingdevice1204B may include, for example, a housing, a shuffling mechanism configured to shuffle cards, and card inputs and outputs (e.g., trays). Shufflers may include card recognition capability that can form a randomly ordered set of cards within the shuffler. The card-handling device1204 may also be, for example, a combination shuffler and shoe in which the output for the shuffler is a shoe.

In some embodiments, the card-handling device1204 may be configured and programmed to administer at least a portion of a wagering game being played utilizing the card-handling device1204. For example, the card-handling device1204 may be programmed and configured to randomize a set of cards and deliver cards individually for use according to game rules and player and or dealer game play elections. More specifically, the card-handling device1204 may be programmed and configured to, for example, randomize a set of six complete decks of cards including one or more standard 52-card decks of playing cards and, optionally, any specialty cards (e.g., a cut card, bonus cards, wild cards, or other specialty cards). In some embodiments, the card-handling device1204 may present individual cards, one at a time, for withdrawal from the card-handling device1204. In other embodiments, the card-handling device1204 may present an entire shuffled block of cards that are transferred manually or automatically into a card dispensing shoe1204. In some such embodiments, the card-handling device1204 may accept dealer input, such as, for example, a number of replacement cards for discarded cards, a number of hit cards to add, or a number of partial hands to be completed. In other embodiments, the device may accept a dealer input from a menu of game options indicating a game selection, which will select programming to cause the card-handling device1204 to deliver the requisite number of cards to the game according to game rules, player decisions and dealer decisions. In still other embodiments, the card-handling device1204 may present the complete set of randomized cards for manual or automatic withdrawal from a shuffler and then insertion into a shoe. As specific, nonlimiting examples, the card-handling device1204 may present a complete set of cards to be manually or automatically transferred into a card dispensing shoe, or may provide a continuous supply of individual cards.

In another embodiment, the card handling device may be a batch shuffler, such as by randomizing a set of cards using a gripping, lifting, and insertion sequence.

In some embodiments, the card-handling device1204 may employ a random number generator device to determine card order, such as, for example, a final card order or an order of insertion of cards into a compartment configured to form a packet of cards. The compartments may be sequentially numbered, and a random number assigned to each compartment number prior to delivery of the first card. In other embodiments, the random number generator may select a location in the stack of cards to separate the stack into two sub-stacks, creating an insertion point within the stack at a random location. The next card may be inserted into the insertion point. In yet other embodiments, the random number generator may randomly select a location in a stack to randomly remove cards by activating an ejector.

Regardless of whether the random number generator (or generators) is hardware or software, it may be used to implement specific game administrations methods of the present disclosure.

The card-handling device1204 may simply be supported on thegaming surface1202 in some embodiments. In other embodiments, the card-handling device1204 may be mounted into the gaming table1202 such that the card-handling device1204 is not manually removable from the gaming table1202 without the use of tools. In some embodiments, the deck or decks of playing cards used may be standard, 52-card decks. In other embodiments, the deck or decks used may include cards, such as, for example, jokers, wild cards, bonus cards, etc. The shuffler may also be configured to handle and dispense security cards, such as cut cards.

In some embodiments, the card-handling device1204 may include anelectronic display1207 for displaying information related to the wagering game being administered. Theelectronic display1207 may display a menu of game options, the name of the game selected, the number of cards per hand to be dispensed, acceptable amounts for other wagers (e.g., maximums and minimums), numbers of cards to be dealt to recipients, locations of particular recipients for particular cards, winning and losing wagers, pay tables, winning hands, losing hands, and payout amounts. In other embodiments, information related to the wagering game may be displayed on another electronic display, such as, for example, thedisplay1210 described previously.

The type of card-handling device1204 employed to administer embodiments of the disclosed wagering game, as well as the type of card deck employed and the number of decks, may be specific to the game to be implemented. Cards used in games of this disclosure may be, for example, standard playing cards from one or more decks, each deck having cards of four suits (clubs, hearts, diamonds, and spades) and of rankings ace, king, queen, jack, and ten through two in descending order. As a more specific example, six, seven, or eight standard decks of such cards may be intermixed. Typically, six or eight decks of 52 standard playing cards each may be intermixed and formed into a set to administer a blackjack or blackjack variant game. After shuffling, the randomized set may be transferred into another portion of the card-handlingdevice1204B or another card-handlingdevice1204A altogether, such as a mechanized shoe capable of reading card rank and suit.

The gaming table1200 may include one ormore chip racks1208 configured to facilitate accepting wagers, transferring lost wagers to the house, and exchanging monetary value for wagering elements1212 (e.g., chips). For example, the chip rack1208 (also referred to as a chip tray herein) may include a series of token support columns, each of which may support tokens of a different type (e.g., color and denomination). In some embodiments, thechip rack1208 may be configured to automatically present a selected number of chips using a chip-cutting-and-delivery mechanism. In some embodiments, the gaming table1200 may include adrop box1214 for money that is accepted in exchange for wagering elements orchips1212. Thedrop box1214 may be, for example, a secure container (e.g., a safe or lockbox) having a one-way opening into which money may be inserted and a secure, lockable opening from which money may be retrieved.Such drop boxes1214 are known in the art, and may be incorporated directly into the gaming table1200 and may, in some embodiments, have a removable container for the retrieval of money in a separate, secure location.

When administering a wagering game in accordance with embodiments of this disclosure, adealer1216 may receive money (e.g., cash) from a player in exchange forwagering elements1212. Thedealer1216 may deposit the money in thedrop box1214 and transferphysical wagering elements1212 to the player. As part of the method of administering the game, thedealer1216 may accept one or more initial wagers from the player, which may be reflected by thedealer1216 permitting the player to place one ormore wagering elements1212 or other wagering tokens (e.g., cash) within designated areas on thegaming surface1202 associated with the various wagers of the wagering game. Once initial wagers have been accepted, thedealer1216 may removephysical cards1206 from the card-handling device1204 (e.g., individual cards, packets of cards, or the complete set of cards) in some embodiments. In other embodiments, thephysical cards1206 may be hand-pitched (i.e., thedealer1216 may optionally shuffle thecards1206 to randomize the set and may hand-deal cards1206 from the randomized set of cards). Thedealer1216 may positioncards1206 within designated areas on thegaming surface1202, which may designate thecards1206 for use as individual player cards, community cards, or dealer cards in accordance with game rules. House rules may require the dealer to accept both main and secondary wagers before card distribution. House rules may alternatively allow the player to place only one wager (i.e., the second wager) during card distribution and after the initial wagers have been placed, or after card distribution but before all cards available for play are revealed.

In some embodiments, after dealing thecards1206, and during play, according to the game rules, any additional wagers (e.g., the play wager) may be accepted, which may be reflected by thedealer1216 permitting the player to place one ormore wagering elements1212 within the designated area (i.e., area124) on thegaming surface1202 associated with the play wager of the wagering game. Thedealer1216 may perform any additional card dealing according to the game rules. Finally, thedealer1216 may resolve the wagers, award winning wagers to the players, which may be accomplished by givingwagering elements1212 from thechip rack1208 to the players, and transferring losing wagers to the house, which may be accomplished by movingwagering elements1212 from the player designated wagering areas to thechip rack1208.

FIG.8 is a perspective view of an individual electronic gaming device1300 (e.g., an electronic gaming machine (EGM)) configured for implementing wagering games according to this disclosure. The individualelectronic gaming device1300 may include anindividual player position1314 including aplayer input area1332 configured to enable a player to interact with the individualelectronic gaming device1300 through various input devices (e.g., buttons, levers, touchscreens). Theplayer input area1332 may further includes a cash- or ticket-in receptor, by which cash or a monetary-valued ticket may be fed, by the player, to the individualelectronic gaming device1300, which may then detect, in association with game-logic circuitry in the individualelectronic gaming device1300, the physical item (cash or ticket) associated with the monetary value and then establish a credit balance for the player. In other embodiments, the individualelectronic gaming device1300 detects a signal indicating an electronic wager was made. Wagers may then be received, and covered by the credit balance, upon the player using theplayer input area1332 or elsewhere on the machine (such as through a touch screen). Won payouts and pushed or returned wagers may be reflected in the credit balance at the end of the round, the credit balance being increased to reflect won payouts and pushed or returned wagers and/or decreased to reflect lost wagers.

The individualelectronic gaming device1300 may further include, in the individual player position1312, a ticket-out printer or monetary dispenser through which a payout from the credit balance may be distributed to the player upon receipt of a cashout instruction, input by the player using theplayer input area1332.

The individualelectronic gaming device1300 may include agaming screen1374 configured to display indicia for interacting with the individualelectronic gaming device1300, such as through processing one or more programs stored in game-logiccircuitry providing memory1340 to implement the rules of game play at the individualelectronic gaming device1300. Accordingly, in some embodiments, game play may be accommodated without involving physical playing cards, chips or other wagering elements, and live personnel. The action may instead be simulated by acontrol processor1350 operably coupled to thememory1340 and interacting with and controlling the individualelectronic gaming device1300. For example, the processor may cause thedisplay1374 to display cards, including virtual player and virtual dealer cards for playing games of the present disclosure.

Although the individualelectronic gaming device1300 displayed inFIG.8 has an outline of a traditional gaming cabinet, the individualelectronic gaming device1300 may be implemented in other ways, such as, for example, on a bartop gaming terminal, through client software downloaded to a portable device, such as a smart phone, tablet, or laptop computer. The individualelectronic gaming device1300 may also be a non-portable personal computer (e.g., a desktop or all-in-one computer) or other computing device. In some embodiments, client software is not downloaded but is native to the device or is otherwise delivered with the device when distributed. In such embodiments, the credit balance may be established by receiving payment via credit card or player's account information input into the system by the player. Cashouts of the credit balance may be allotted to a player's account or card.

Acommunication device1360 may be included and operably coupled to theprocessor1350 such that information related to operation of the individualelectronic gaming device1300, information related to the game play, or combinations thereof may be communicated between the individualelectronic gaming device1300 and other devices, such as a server, through a suitable communication medium, such, as, for example, wired networks, Wi-Fi networks, and cellular communication networks.

Thegaming screen1374 may be carried by a generally vertically extendingcabinet1376 of the individualelectronic gaming device1300. The individualelectronic gaming device1300 may further include banners to communicate rules of game play, instructions, game play advice or hints and the like, such as along atop portion1378 of thecabinet1376 of the individualelectronic gaming device1300. The individualelectronic gaming device1300 may further include additional decorative lights (not shown), and speakers (not shown) for transmitting and optionally receiving sounds during game play.

Some embodiments may be implemented at locations including a plurality of player stations. Such player stations may include an electronic display screen for display of game information (e.g., cards, wagers, and game instructions) and for accepting wagers and facilitating credit balance adjustments. Such player stations may, optionally, be integrated in a table format, may be distributed throughout a casino or other gaming site, or may include both grouped and distributed player stations.

FIG.9 is a top view of a suitable table1010 configured for implementing wagering games according to this disclosure. The table1010 may include aplaying surface1404. The table1010 may includeelectronic player stations1412. Eachplayer station1412 may include aplayer interface1416, which may be used for displaying game information (e.g., graphics illustrating a player layout, game instructions, input options, wager information, game outcomes, etc.) and accepting player elections. Theplayer interface1416 may be a display screen in the form of a touch screen, which may be at least substantially flush with theplaying surface1404 in some embodiments. Eachplayer interface1416 may be operated by its own local game processor1414 (shown in dashed lines), although, in some embodiments, a central game processor1428 (shown in dashed lines) may be employed and may communicate directly withplayer interfaces1416. In some embodiments, a combination of individuallocal game processors1414 and thecentral game processor1428 may be employed. Each of theprocessors1414 and1428 may be operably coupled to memory including one or more programs related to the rules of game play at the table1010.

Acommunication device1460 may be included and may be operably coupled to one or more of thelocal game processors1414, thecentral game processor1428, or combinations thereof, such that information related to operation of the table1010, information related to the game play, or combinations thereof may be communicated between the table1010 and other devices through a suitable communication medium, such as, for example, wired networks, Wi-Fi networks, and cellular communication networks.

The table1010 may further include additional features, such as adealer chip tray1420, which may be used by the dealer to cash players in and out of the wagering game, whereas wagers and balance adjustments during game play may be performed using, for example, virtual chips (e.g., images or text representing wagers). For embodiments using physical cards1406aand1406b, the table1010 may further include a card-handlingdevice1422 such as a card shoe configured to read and deliver cards that have already been randomized. For embodiments using virtual cards, the virtual cards may be displayed at the individual player interfaces1416. Physical playing cards designated as “common cards” may be displayed in a common card area.

The table1010 may further include adealer interface1418, which, like theplayer interfaces1416, may include touch screen controls for receiving dealer inputs and assisting the dealer in administering the wagering game. The table1010 may further include anupright display1430 configured to display images that depict game information, pay tables, hand counts, historical win/loss information by player, and a wide variety of other information considered useful to the players. Theupright display1430 may be double sided to provide such information to players as well as to casino personnel.

Although an embodiment is described showing individual discrete player stations, in some embodiments, theentire playing surface1404 may be an electronic display that is logically partitioned to permit game play from a plurality of players for receiving inputs from, and displaying game information to, the players, the dealer, or both.

FIG.10 is a perspective view of another embodiment of a suitable electronic multi-player table1500 configured for implementing wagering games according to the present disclosure utilizing a virtual dealer. The table1500 may includeplayer positions1514 arranged in a bank about anarcuate edge1520 of avideo device1558 that may comprise acard screen1564 and avirtual dealer screen1560. Thedealer screen1560 may display a video simulation of the dealer (i.e., a virtual dealer) for interacting with thevideo device1558, such as through processing one or more stored programs stored inmemory1595 to implement the rules of game play at thevideo device1558. Thedealer screen1560 may be carried by a generally vertically extendingcabinet1562 of thevideo device1558. The substantiallyhorizontal card screen1564 may be configured to display at least one or more of the dealer's cards, any community cards, and each player's cards dealt by the virtual dealer on thedealer screen1560.

Each of theplayer positions1514 may include aplayer interface area1532 configured for wagering and game play interactions with thevideo device1558 and virtual dealer. Accordingly, game play may be accommodated without involving physical playing cards, poker chips, and live personnel. The action may instead be simulated by acontrol processor1597 interacting with and controlling thevideo device1558. Thecontrol processor1597 may be programmed, by known techniques, to implement the rules of game play at thevideo device1558. As such, thecontrol processor1597 may interact and communicate with display/input interfaces and data entry inputs for eachplayer interface area1532 of thevideo device1558. Other embodiments of tables and gaming devices may include a control processor that may be similarly adapted to the specific configuration of its associated device.

Acommunication device1599 may be included and operably coupled to thecontrol processor1597 such that information related to operation of the table1500, information related to the game play, or combinations thereof may be communicated between the table1500 and other devices, such as a central server, through a suitable communication medium, such, as, for example, wired networks, Wi-Fi networks, and cellular communication networks.

Thevideo device1558 may further include banners communicating rules of play and the like, which may be located along one ormore walls1570 of thecabinet1562. Thevideo device1558 may further include additional decorative lights and speakers, which may be located on anunderside surface1566, for example, of a generally horizontally extending top1568 of thecabinet1562 of thevideo device1558 generally extending toward the player positions1514.

Although an embodiment is described showing individual discrete player stations, in some embodiments, the entire playing surface (e.g.,player interface areas1532,card screen1564, etc.) may be a unitary electronic display that is logically partitioned to permit game play from a plurality of players for receiving inputs from, and displaying game information to, the players, the dealer, or both.

In some embodiments, wagering games in accordance with this disclosure may be administered using a gaming system employing a client-server architecture (e.g., over the Internet, a local area network, etc.).FIG.11 is a schematic block diagram of anillustrative gaming system1600 for implementing wagering games according to this disclosure. Thegaming system1600 may enable end users to remotely access game content. Such game content may include, without limitation, various types of wagering games such as card games, dice games, big wheel games, roulette, scratch off games (“scratchers”), and any other wagering game where the game outcome is determined, in whole or in part, by one or more random events. This includes, but is not limited to, Class II and Class III games as defined under 25 U.S.C. § 2701 et seq. (“Indian Gaming Regulatory Act”). Such games may include banked and/or non-banked games.

The wagering games supported by thegaming system1600 may be operated with real currency or with virtual credits or other virtual (e.g., electronic) value indicia. For example, the real currency option may be used with traditional casino and lottery-type wagering games in which money or other items of value are wagered and may be cashed out at the end of a game session. The virtual credits option may be used with wagering games in which credits (or other symbols) may be issued to a player to be used for the wagers. A player may be credited with credits in any way allowed, including, but not limited to, a player purchasing credits; being awarded credits as part of a contest or a win event in this or another game (including non-wagering games); being awarded credits as a reward for use of a product, casino, or other enterprise, time played in one session, or games played; or may be as simple as being awarded virtual credits upon logging in at a particular time or with a particular frequency, etc. Although credits may be won or lost, the ability of the player to cash out credits may be controlled or prevented. In one example, credits acquired (e.g., purchased or awarded) for use in a play-for-fun game may be limited to non-monetary redemption items, awards, or credits usable in the future or for another game or gaming session. The same credit redemption restrictions may be applied to some or all of credits won in a wagering game as well.

An additional variation includes web-based sites having both play-for-fun and wagering games, including issuance of free (non-monetary) credits usable to play the play-for-fun games. This feature may attract players to the site and to the games before they engage in wagering. In some embodiments, a limited number of free or promotional credits may be issued to entice players to play the games. Another method of issuing credits includes issuing free credits in exchange for identifying friends who may want to play. In another embodiment, additional credits may be issued after a period of time has elapsed to encourage the player to resume playing the game. Thegaming system1600 may enable players to buy additional game credits to allow the player to resume play. Objects of value may be awarded to play-for-fun players, which may or may not be in a direct exchange for credits. For example, a prize may be awarded or won for a highest scoring play-for-fun player during a defined time interval. All variations of credit redemption are contemplated, as desired by game designers and game hosts (the person or entity controlling the hosting systems).

Thegaming system1600 may include a gaming platform to establish a portal for an end user to access a wagering game hosted by one ormore gaming servers1610 over anetwork1630. In some embodiments, games are accessed through a user interaction service1612. Thegaming system1600 enables players to interact with auser device1620 through auser input device1624 and adisplay1622 and to communicate with one ormore gaming servers1610 using a network1630 (e.g., the Internet). Typically, the user device is remote from thegaming server1610 and the network is the word-wide web (i.e., the Internet).

In some embodiments, thegaming servers1610 may be configured as a single server to administer wagering games in combination with theuser device1620. In other embodiments, thegaming servers1610 may be configured as separate servers for performing separate, dedicated functions associated with administering wagering games. Accordingly, the following description also discusses “services” with the understanding that the various services may be performed by different servers or combinations of servers in different embodiments. As shown inFIG.11, thegaming servers1610 may include a user interaction service1612, agame service1616, and anasset service1614. In some embodiments, one or more of thegaming servers1610 may communicate with anaccount server1632 performing anaccount service1632. As explained more fully below, for some wagering type games, theaccount service1632 may be separate and operated by a different entity than thegaming servers1610; however, in some embodiments theaccount service1632 may also be operated by one or more of thegaming servers1610.

Theuser device1620 may communicate with the user interaction service1612 through thenetwork1630. The user interaction service1612 may communicate with thegame service1616 and provide game information to theuser device1620. In some embodiments, thegame service1616 may also include a game engine. The game engine may, for example, access, interpret, and apply game rules. In some embodiments, asingle user device1620 communicates with a game provided by thegame service1616, while other embodiments may include a plurality ofuser devices1620 configured to communicate and provide end users with access to the same game provided by thegame service1616. In addition, a plurality of end users may be permitted to access a single user interaction service1612, or a plurality of user interaction services1612, to access thegame service1616. The user interaction service1612 may enable a user to create and access a user account and interact withgame service1616. The user interaction service1612 may enable users to initiate new games, join existing games, and interface with games being played by the user.

The user interaction service1612 may also provide a client for execution on theuser device1620 for accessing thegaming servers1610. The client provided by thegaming servers1610 for execution on theuser device1620 may be any of a variety of implementations depending on theuser device1620 and method of communication with thegaming servers1610. In one embodiment, theuser device1620 may connect to thegaming servers1610 using a web browser, and the client may execute within a browser window or frame of the web browser. In another embodiment, the client may be a stand-alone executable on theuser device1620.

For example, the client may comprise a relatively small amount of script (e.g., JAVASCRIPT®), also referred to as a “script driver,” including scripting language that controls an interface of the client. The script driver may include simple function calls requesting information from thegaming servers1610. In other words, the script driver stored in the client may merely include calls to functions that are externally defined by, and executed by, thegaming servers1610. As a result, the client may be characterized as a “thin client.” The client may simply send requests to thegaming servers1610 rather than performing logic itself. The client may receive player inputs, and the player inputs may be passed to thegaming servers1610 for processing and executing the wagering game. In some embodiments, this may involve providing specific graphical display information for thedisplay1622 as well as game outcomes.

As another example, the client may comprise an executable file rather than a script. The client may do more local processing than does a script driver, such as calculating where to show what game symbols upon receiving a game outcome from thegame service1616 through user interaction service1612. In some embodiments, portions of anasset service1614 may be loaded onto the client and may be used by the client in processing and updating graphical displays. Some form of data protection, such as end-to-end encryption, may be used when data is transported over thenetwork1630. Thenetwork1630 may be any network, such as, for example, the Internet or a local area network.

Thegaming servers1610 may include anasset service1614, which may host various media assets (e.g., text, audio, video, and image files) to send to theuser device1620 for presenting the various wagering games to the end user. In other words, the assets presented to the end user may be stored separately from theuser device1620. For example, theuser device1620 requests the assets appropriate for the game played by the user; as another example, especially relating to thin clients, just those assets that are needed for a particular display event will be sent by thegaming servers1610, including as few as one asset. Theuser device1620 may call a function defined at the user interaction service1612 orasset service1614, which may determine which assets are to be delivered to theuser device1620 as well as how the assets are to be presented by theuser device1620 to the end user. Different assets may correspond to thevarious user devices1620 and their clients that may have access to thegame service1616 and to different variations of wagering games.

Thegaming servers1610 may include thegame service1616, which may be programmed to administer wagering games and determine game play outcomes to provide to the user interaction service1612 for transmission to theuser device1620. For example, thegame service1616 may include game rules for one or more wagering games, such that thegame service1616 controls some or all of the game flow for a selected wagering game as well as the determined game outcomes. Thegame service1616 may include pay tables and other game logic. Thegame service1616 may perform random number generation for determining random game elements of the wagering game. In one embodiment, thegame service1616 may be separated from the user interaction service1612 by a firewall or other method of preventing unauthorized access to the game service1612 by the general members of thenetwork1630.

Theuser device1620 may present a gaming interface to the player and communicate the user interaction from theuser input device1624 to thegaming servers1610. Theuser device1620 may be any electronic system capable of displaying gaming information, receiving user input, and communicating the user input to thegaming servers1610. For example, theuser device1620 may be a desktop computer, a laptop, a tablet computer, a set-top box, a mobile device (e.g., a smartphone), a kiosk, a terminal, or another computing device. As a specific, nonlimiting example, theuser device1620 operating the client may be an interactiveelectronic gaming system1300. The client may be a specialized application or may be executed within a generalized application capable of interpreting instructions from an interactive gaming system, such as a web browser.

The client may interface with an end user through a web page or an application that runs on a device including, but not limited to, a smartphone, a tablet, or a general computer, or the client may be any other computer program configurable to access thegaming servers1610. The client may be illustrated within a casino webpage (or other interface) indicating that the client is embedded into a webpage, which is supported by a web browser executing on theuser device1620.

In some embodiments, components of thegaming system1600 may be operated by different entities. For example, theuser device1620 may be operated by a third party, such as a casino or an individual, that links to thegaming servers1610, which may be operated, for example, by a wagering game service provider. Therefore, in some embodiments, theuser device1620 and client may be operated by a different administrator than the operator of thegame service1616. In other words, theuser device1620 may be part of a third-party system that does not administer or otherwise control thegaming servers1610 orgame service1616. In other embodiments, the user interaction service1612 andasset service1614 may be operated by a third-party system. For example, a gaming entity (e.g., a casino) may operate the user interaction service1612,user device1620, or combination thereof to provide its customers access to game content managed by a different entity that may control thegame service1616, amongst other functionality. In still other embodiments, all functions may be operated by the same administrator. For example, a gaming entity (e.g., a casino) may elect to perform each of these functions in-house, such as providing access to theuser device1620, delivering the actual game content, and administering thegaming system1600.

Thegaming servers1610 may communicate with one or more external account servers1632 (also referred to herein as an account service1632), optionally through another firewall. For example, thegaming servers1610 may not directly accept wagers or issue payouts. That is, thegaming servers1610 may facilitate online casino gaming but may not be part of self-contained online casino itself. Another entity (e.g., a casino or any account holder or financial system of record) may operate and maintain itsexternal account service1632 to accept bets and make payout distributions. Thegaming servers1610 may communicate with theaccount service1632 to verify the existence of funds for wagering and to instruct theaccount service1632 to execute debits and credits. As another example, thegaming servers1610 may directly accept bets and make payout distributions, such as in the case where an administrator of thegaming servers1610 operates as a casino.

Additional features may be supported by thegaming servers1610, such as hacking and cheating detection, data storage and archival, metrics generation, messages generation, output formatting for different end user devices, as well as other features and operations.

FIG.12 is a schematic block diagram of a table1682 for implementing wagering games including a live dealer video feed. Features of the gaming system1600 (seeFIG.11) described above in connection withFIG.11 may be utilized in connection with this embodiment, except as further described. Rather than cards being determined by computerized random processes, physical cards (e.g., from a standard, 52-card deck of playing cards) may be dealt by a live dealer1680 at a table1682 from a card-handlingsystem1684 located in a studio or on a casino floor. Atable manager1686 may assist the dealer1680 in facilitating play of the game by transmitting a live video feed of the dealer's actions to theuser device1620 and transmitting remote player elections to the dealer1680. As described above, thetable manager1686 may act as or communicate with a gaming system1600 (seeFIG.11) (e.g., acting as the gaming system1600 (seeFIG.11) itself or as an intermediate client interposed between and operationally connected to theuser device1620 and the gaming system1600 (seeFIG.11)) to provide gaming at the table1682 to users of the gaming system1600 (seeFIG.11). Thus, thetable manager1686 may communicate with theuser device1620 through a network1630 (seeFIG.11), and may be a part of a larger online casino, or may be operated as a separate system facilitating game play. In various embodiments, each table1682 may be managed by anindividual table manager1686 constituting a gaming device, which may receive and process information relating to that table. For simplicity of description, these functions are described as being performed by thetable manager1686, though certain functions may be performed by an intermediary gaming system1600 (seeFIG.11), such as the one shown and described in connection withFIG.11. In some embodiments, the gaming system1600 (seeFIG.11) may match remotely located players to tables1682 and facilitate transfer of information betweenuser devices1620 and tables1682, such as wagering amounts and player option elections, without managing gameplay at individual tables. In other embodiments, functions of thetable manager1686 may be incorporated into a gaming system1600 (seeFIG.11).

The table1682 includes acamera1670 and optionally amicrophone1672 to capture video and audio feeds relating to the table1682. Thecamera1670 may be trained on the live dealer1680,play area1687, and card-handlingsystem1684. As the game is administered by the live dealer1680, the video feed captured by thecamera1670 may be shown to the player remotely using theuser device1620, and any audio captured by themicrophone1672 may be played to the player remotely using theuser device1620. In some embodiments, theuser device1620 may also include a camera, microphone, or both, which may also capture feeds to be shared with the dealer1680 and other players. In some embodiments, thecamera1670 may be trained to capture images of the card faces, chips, and chip stacks on the surface of the gaming table. Known image extraction techniques may be used to obtain card count and card rank and suit information from the card images.

Card and wager data in some embodiments may be used by thetable manager1686 to determine game outcome. The data extracted from thecamera1670 may be used to confirm the card data obtained from the card-handlingsystem1684, to determine a player position that received a card, and for general security monitoring purposes, such as detecting player or dealer card switching, for example. Examples of card data include, for example, suit and rank information of a card, suit and rank information of each card in a hand, rank information of a hand, and rank information of every hand in a round of play.

The live video feed permits the dealer to show cards dealt by the card-handlingsystem1684 and play the game as though the player were at a gaming table, playing with other players in a live casino. In addition, the dealer can prompt a user by announcing a player's election is to be performed. In embodiments where amicrophone1672 is included, the dealer1680 can verbally announce action or request an election by a player. In some embodiments, theuser device1620 also includes a camera or microphone, which also captures feeds to be shared with the dealer1680 and other players.

The card-handlingsystem1684 may be as shown and was described previously. Theplay area1686 depicts player layouts for playing the game. As determined by the rules of the game, the player at theuser device1620 may be presented options for responding to an event in the game using a client as described with reference toFIG.11.

Player elections may be transmitted to thetable manager1686, which may display player elections to the dealer1680 using adealer display1688 andplayer action indicator1690 on the table1682. For example, thedealer display1688 may display information regarding where to deal the next card or which player position is responsible for the next action.

In some embodiments, thetable manager1686 may receive card information from the card-handlingsystem1684 to identify cards dealt by the card-handlingsystem1684. For example, the card-handlingsystem1684 may include a card reader to determine card information from the cards. The card information may include the rank and suit of each dealt card and hand information.

Thetable manager1686 may apply game rules to the card information, along with the accepted player decisions, to determine gameplay events and wager results. Alternatively, the wager results may be determined by the dealer1680 and input to thetable manager1686, which may be used to confirm automatically determined results by the gaming system.

Card and wager data in some embodiments may be used by thetable manager1686 to determine game outcome. The data extracted from thecamera1670 may be used to confirm the card data obtained from the card-handlingsystem1684, to determine a player position that received a card, and for general security monitoring purposes, such as detecting player or dealer card switching, for example.

The live video feed permits the dealer to show cards dealt by the card-handlingsystem1684 and play the game as though the player were at a live casino. In addition, the dealer can prompt a user by announcing a player's election is to be performed. In embodiments where amicrophone1672 is included, the dealer1680 can verbally announce action or request an election by a player. In some embodiments, theuser device1620 also includes a camera or microphone, which also captures feeds to be shared with the dealer1680 and other players.

FIG.13 is a simplified block diagram showing elements of computing devices that may be used in systems and apparatuses of this disclosure. Acomputing system1640 may be a user-type computer, a file server, a computer server, a notebook computer, a tablet, a handheld device, a mobile device, or other similar computer system for executing software. Thecomputing system1640 may be configured to execute software programs containing computing instructions and may include one ormore processors1642,memory1646, one ormore displays1658, one or moreuser interface elements1644, one ormore communication elements1656, and one or more storage devices1648 (also referred to herein simply as storage1648).

Theprocessors1642 may be configured to execute a wide variety of operating systems and applications including the computing instructions for administering wagering games of the present disclosure.

Theprocessors1642 may be configured as a general-purpose processor such as a microprocessor, but in the alternative, the general-purpose processor may be any processor, controller, microcontroller, or state machine suitable for carrying out processes of the present disclosure. Theprocessor1642 may also be implemented as a combination of computing devices, such as a combination of a DSP and a microprocessor, a plurality of microprocessors, one or more microprocessors in conjunction with a DSP core, or any other such configuration.

A general-purpose processor may be part of a general-purpose computer. However, when configured to execute instructions (e.g., software code) for carrying out embodiments of the present disclosure the general-purpose computer should be considered a special-purpose computer. Moreover, when configured according to embodiments of the present disclosure, such a special-purpose computer improves the function of a general-purpose computer because, absent the present disclosure, the general-purpose computer would not be able to carry out the processes of the present disclosure. The processes of the present disclosure, when carried out by the special-purpose computer, are processes that a human would not be able to perform in a reasonable amount of time due to the complexities of the data processing, decision making, communication, interactive nature, or combinations thereof for the present disclosure. The present disclosure also provides meaningful limitations in one or more particular technical environments that go beyond an abstract idea. For example, embodiments of the present disclosure provide improvements in the technical field related to the present disclosure.

Thememory1646 may be used to hold computing instructions, data, and other information for performing a wide variety of tasks including administering wagering games of the present disclosure. By way of example, and not limitation, thememory1646 may include Synchronous Random Access Memory (SRAM), Dynamic RAM (DRAM), Read-Only Memory (ROM), Flash memory, and the like.

Thedisplay1658 may be a wide variety of displays such as, for example, light-emitting diode displays, liquid crystal displays, cathode ray tubes, and the like. In addition, thedisplay1658 may be configured with a touch-screen feature for accepting user input as auser interface element1644.

As nonlimiting examples, theuser interface elements1644 may include elements such as displays, keyboards, push-buttons, mice, joysticks, haptic devices, microphones, speakers, cameras, and touchscreens.

As nonlimiting examples, thecommunication elements1656 may be configured for communicating with other devices or communication networks. As nonlimiting examples, thecommunication elements1656 may include elements for communicating on wired and wireless communication media, such as for example, serial ports, parallel ports, Ethernet connections, universal serial bus (USB) connections, IEEE 1394 (“firewire”) connections, THUNDERBOLT® connections, BLUETOOTH® wireless networks, ZigBee wireless networks, 802.11 type wireless networks, cellular telephone/data networks, fiber optic networks and other suitable communication interfaces and protocols.

Thestorage1648 may be used for storing relatively large amounts of nonvolatile information for use in thecomputing system1640 and may be configured as one or more storage devices. By way of example and not limitation, these storage devices may include computer-readable media (CRM). This CRM may include, but is not limited to, magnetic and optical storage devices such as disk drives, magnetic tape, CDs (compact discs), DVDs (digital versatile discs or digital video discs), and semiconductor devices such as RAM, DRAM, ROM, EPROM, Flash memory, and other equivalent storage devices.

A person of ordinary skill in the art will recognize that thecomputing system1640 may be configured in many different ways with different types of interconnecting buses between the various elements. Moreover, the various elements may be subdivided physically, functionally, or a combination thereof. As one nonlimiting example, thememory1646 may be divided into cache memory, graphics memory, and main memory. Each of these memories may communicate directly or indirectly with the one ormore processors1642 on separate buses, partially combined buses, or a common bus.

As a specific, nonlimiting example, various methods and features of the present disclosure may be implemented in a mobile, remote, or mobile and remote environment over one or more of Internet, cellular communication (e.g., Broadband), near field communication networks and other communication networks referred to collectively herein as an iGaming environment. The iGaming environment may be accessed through social media environments such as FACEBOOK® and the like. DragonPlay Ltd, acquired by Bally Technologies Inc., provides an example of a platform to provide games to user devices, such as cellular telephones and other devices utilizing ANDROID®, iPHONE® and FACEBOOK® platforms. Where permitted by jurisdiction, the iGaming environment can include pay-to-play (P2P) gaming where a player, from their device, can make value based wagers and receive value based awards. Where P2P is not permitted the features can be expressed as entertainment only gaming where players wager virtual credits having no value or risk no wager whatsoever such as playing a promotion game or feature.

FIG.14 illustrates an illustrative embodiment of information flows in an iGaming environment. At a player level, the player or user accesses a site hosting the activity such as awebsite1700. Thewebsite1700 may functionally provide aweb game client1702. Theweb game client1702 may be, for example, represented by agame client1708 downloadable atinformation flow1710, which may process applets transmitted from agaming server1714 atinformation flow1711 for rendering and processing game play at a player's remote device. Where the game is a P2P game, thegaming server1714 may process value-based wagers (e.g., money wagers) and randomly generate an outcome for rendition at the player's device. In some embodiments, theweb game client1702 may access a local memory store to drive the graphic display at the player's device. In other embodiments, all or a portion of the game graphics may be streamed to the player's device with theweb game client1702 enabling player interaction and display of game features and outcomes at the player's device.

Thewebsite1700 may access a player-centric, iGaming-platform-level account module1704 atinformation flow1706 for the player to establish and confirm credentials for play and, where permitted, access an account (e.g., an eWallet) for wagering. Theaccount module1704 may include or access data related to the player's profile (e.g., player-centric information desired to be retained and tracked by the host), the player's electronic account, deposit, and withdrawal records, registration and authentication information, such as username and password, name and address information, date of birth, a copy of a government issued identification document, such as a driver's license or passport, and biometric identification criteria, such as fingerprint or facial recognition data, and a responsible gaming module containing information, such as self-imposed or jurisdictionally imposed gaming restraints, such as loss limits, daily limits and duration limits. Theaccount module1704 may also contain and enforce geo-location limits, such as geographic areas where the player may play P2P games, user device IP address confirmation, and the like.

Theaccount module1704 communicates atinformation flow1705 with agame module1716 to complete log-ins, registrations, and other activities. Thegame module1716 may also store or access a player's gaming history, such as player tracking and loyalty club account information. Thegame module1716 may provide static web pages to the player's device from thegame module1716 throughinformation flow1718, whereas, as stated above, the live game content may be provided from thegaming server1714 to the web game client throughinformation flow1711.

Thegaming server1714 may be configured to provide interaction between the game and the player, such as receiving wager information, game selection, inter-game player selections or choices to play a game to its conclusion, and the random selection of game outcomes and graphics packages, which, alone or in conjunction with thedownloadable game client1708/web game client1702 andgame module1716, provide for the display of game graphics and player interactive interfaces. Atinformation flow1718, player account and log-in information may be provided to thegaming server1714 from theaccount module1704 to enable gaming.Information flow1720 provides wager/credit information between theaccount module1704 andgaming server1714 for the play of the game and may display credits and eWallet availability.Information flow1722 may provide player tracking information for thegaming server1714 for tracking the player's play. The tracking of play may be used for purposes of providing loyalty rewards to a player, determining preferences, and the like.

All or portions of the features ofFIG.14 may be supported by servers and databases located remotely from a player's mobile device and may be hosted or sponsored by regulated gaming entity for P2P gaming or, where P2P is not permitted, for entertainment only play.

In some embodiments, wagering games may be administered in an at least partially player-pooled format, with payouts on pooled wagers being paid from a pot to players and losses on wagers being collected into the pot and eventually distributed to one or more players. Such player-pooled embodiments may include a player-pooled progressive embodiment, in which a pot is eventually distributed when a predetermined progressive-winning hand combination or composition is dealt. Player-pooled embodiments may also include a dividend refund embodiment, in which at least a portion of the pot is eventually distributed in the form of a refund distributed, e.g., pro-rata, to the players who contributed to the pot.

In some player-pooled embodiments, the game administrator may not obtain profits from chance-based events occurring in the wagering games that result in lost wagers. Instead, lost wagers may be redistributed back to the players. To profit from the wagering game, the game administrator may retain a commission, such as, for example, a player entrance fee or a rake taken on wagers, such that the amount obtained by the game administrator in exchange for hosting the wagering game is limited to the commission and is not based on the chance events occurring in the wagering game itself. The game administrator may also charge a rent of flat fee to participate.

It is noted that the methods described herein can be played with any number of standard decks of 52 cards (e.g., 1 deck to 10 decks). A standard deck is a collection of cards comprising an Ace, two, three, four, five, six, seven, eight, nine, ten, jack, queen, king, for each of four suits (comprising spades, diamonds, clubs, hearts) totaling 52 cards. Cards can be shuffled or a continuous shuffling machine (CSM) can be used. A standard deck of 52 cards can be used, as well as other kinds of decks, such as Spanish decks, decks with wild cards, etc. The operations described herein can be performed in any sensible order. Furthermore, numerous different variants of house rules can be applied.

Note that in the embodiments played using computers (a processor/processing unit), “virtual deck(s)” of cards are used instead of physical decks. A virtual deck is an electronic data structure used to represent a physical deck of cards which uses electronic representations for each respective card in the deck. In some embodiments, a virtual card is presented (e.g., displayed on an electronic output device using computer graphics, projected onto a surface of a physical table using a video projector, etc.) and is presented to mimic a real life image of that card.

Methods described herein can also be played on a physical table using physical cards and physical chips used to place wagers. Such physical chips can be directly redeemable for cash. When a player wins (dealer loses) the player's wager, the dealer will pay that player a respective payout amount. When a player loses (dealer wins) the player's wager, the dealer will take (collect) that wager from the player and typically place those chips in the dealer's chip rack. All rules, embodiments, features, etc. of a game being played can be communicated to the player (e.g., verbally or on a written rule card) before the game begins.

Initial cash deposits can be made into the electronic gaming machine which converts cash into electronic credits. Wagers can be placed in the form of electronic credits, which can be cashed out for real coins or a ticket (e.g., ticket-in-ticket-out) which can be redeemed at a casino cashier or kiosk for real cash and/or coins.

Any component of any embodiment described herein may include hardware, software, or any combination thereof.

Further, the operations described herein can be performed in any sensible order. Any operations not required for proper operation can be optional. Further, all methods described herein can also be stored as instructions on a computer readable storage medium, which instructions are operable by a computer processor. All variations and features described herein can be combined with any other features described herein without limitation. All features in all documents incorporated by reference herein can be combined with any feature(s) described herein, and also with all other features in all other documents incorporated by reference, without limitation.

Features of various embodiments of the inventive subject matter described herein, however essential to the example embodiments in which they are incorporated, do not limit the inventive subject matter as a whole, and any reference to the invention, its elements, operation, and application are not limiting as a whole, but serve only to define these example embodiments. This detailed description does not, therefore, limit embodiments which are defined only by the appended claims. Further, since numerous modifications and changes may readily occur to those skilled in the art, it is not desired to limit the inventive subject matter to the exact construction and operation illustrated and described, and accordingly all suitable modifications and equivalents may be resorted to, falling within the scope of the inventive subject matter.

Claims (19)

What is claimed is:

1. An apparatus comprising:

a chip tray having a plurality of light sensors, wherein the plurality of light sensors are positioned inside a column of the chip tray; and

a tracking controller configured to perform operations that cause the apparatus to:

detect a level of ambient light at each of the plurality of light sensors;

determine, in response to detection of the level of ambient light at each of the plurality of light sensors, a number of gaming chips placed inside the column;

identify, by a neural network model via electronic analysis of image data of the gaming chips inside the column, a pattern on the edge of at least a relative majority of the gaming chips,

determine, based on the pattern, a chip denomination value associated with the column; and

compute, in response to multiplication of the number of the gaming chips by the chip denomination value, a chip-column value.

2. The apparatus ofclaim 1, wherein the tracking controller configured to detect the level of ambient light at each of the plurality of sensors is further configured to perform operations that cause the apparatus to:

detect a first level of the ambient light at a first light sensor that is not covered by one of the gaming chips;

compare the first level of ambient light detected at the first light sensor to a second level of ambient light detected at a second light sensor, wherein the second light sensor is one the plurality of light sensors; and

determine, based on a difference in the detected first level of ambient light and the detected second level of ambient light, that one of the gaming chips is covering the second light sensor.

3. The apparatus ofclaim 2, wherein the tracking controller is configured to compute the chip-column value based, at least in part, on determination that the one of the gaming chips is covering the second light sensor.

4. The apparatus ofclaim 1, wherein the tracking controller is configured to perform operations that cause the apparatus to determine the chip denomination value associated with the gaming chips placed inside the column in response to determination, via analysis of the image data, that the at least a relative majority of the gaming chips in the column have the pattern.

5. The apparatus ofclaim 1, wherein the tracking controller is further configured to perform operations that cause the apparatus to;

determine that at least one of the gaming chips in the column has an additional pattern different from the pattern; and

automatically indicate that the at least one of the gaming chips has the additional pattern different from the pattern.

6. The apparatus ofclaim 1, wherein the plurality of light sensors are positioned vertically along a curved, semi-circular wall of the column, wherein the plurality of light sensors are positioned below holes formed into the wall, and wherein one or more transparent windows cover the holes.

7. The apparatus ofclaim 1, wherein each of the plurality of light sensors are vertically spaced apart from each other in the column by a distance equivalent to a thickness of one of the gaming chips.

8. The apparatus ofclaim 1, wherein the tracking controller is further configured to automatically indicate the chip-column value via one or more electronic devices communicatively coupled to the chip tray.

9. The apparatus ofclaim 1, wherein the chip tray comprises a plurality of circuits, wherein each of the plurality of circuits comprises at least one of the plurality of the light sensors, at least one resistor, and at least one comparator.

10. The apparatus ofclaim 9, wherein each of the plurality of circuits is communicatively coupled, via the at least one comparator, to a microcontroller, and wherein the microcontroller is connected, via a bus, to a plurality of additional microcontrollers associated with a plurality of additional columns of the chip tray.

11. The apparatus ofclaim 10, wherein the tracking controller is further configured to perform operations that cause the apparatus to:

compute additional chip-column values for the plurality of additional columns; and

add the column value to the additional chip-column values, wherein a sum of the chip-column value and the additional chip-column values equates to a total chip-tray value.

12. A method of tracking gaming chips comprising:

detecting, via a tracking controller, a level of ambient light at each of a plurality of light sensors of a chip tray, wherein the plurality of light sensors are positioned inside a column of the chip tray;

determining, via the tracking controller in response to the detecting the level of ambient light at each of the plurality of light sensors, a number of gaming chips inside the column;

identifying, via electronic analysis of image data of the chip tray by a machine learning model, a pattern on the edge of at least a relative majority of the number of gaming chips,

determining, based on the pattern, a chip denomination value associated with the column; and

computing, via the tracking controller in response to multiplication of the number of gaming chips by the chip denomination value, a chip-column value for the column.

13. The method ofclaim 12, wherein detecting the level of ambient light at each of the plurality of light sensors comprises:

detecting, by the tracking controller, a first level of the ambient light at a threshold light sensor, wherein the threshold light sensor is not covered by one of the number of gaming chips;

comparing, by the tracking controller, the first level of ambient light at the threshold light sensor to a second level of ambient light detected a second light sensor, wherein the second light sensor is one of the plurality of light sensors; and

determining, by the tracking controller based on a difference in the detected first level of ambient light and the detected second level of ambient light, that one of the number of gaming chips is covering the second light sensor.

14. The method ofclaim 13, wherein the computing the chip-column value is based, at least in part, on determining that the one of the number of gaming chips is covering the second light sensor.

15. The method ofclaim 12 further comprising:

determining, by the tracking controller, that at least one of the number of gaming chips has an additional pattern different from the pattern; and

automatically indicating, by the tracking controller, that the at least one of the number of gaming chips is misplaced within the chip tray in response to the determining that the at least one of the gaming chips has the additional pattern different from the pattern.

16. The method ofclaim 12 further comprising automatically indicating, by the tracking controller, the chip-column value via one or more electronic devices communicatively coupled to the chip tray.

17. The method ofclaim 12, wherein the determining, via the tracking controller in response to the detecting the level of ambient light at each of the plurality of light sensors, the number of gaming chips inside the column comprises determining, via the tracking controller in response to comparing the detected level of ambient light at each of the plurality of light sensors to an ambient light threshold, the number of gaming chips inside the column.

18. One or more non-transitory machine-readable mediums having instructions stored thereon, which when executed by a set of one or more processors cause a gaming system to perform operations comprising:

identifying, via electronic analysis by a machine learning model of image data of gaming chips positioned inside a column of a chip tray, a pattern on the edge of the gaming chips;

determining, in response to identifying the pattern on the edge of the gaming chips, a chip denomination value associated with the column;

detecting a level of ambient light at each of a plurality of light sensors positioned inside the column;

determining, in response to detection of the level of ambient light at each of the plurality of light sensors, a number of the gaming chips inside the column; and

computing, in response to multiplication of the number of the gaming chips by the chip denomination value, a chip-column value.

19. The one or more non-transitory machine-readable mediums ofclaim 18, wherein the operations of detecting the level of ambient light at each of the plurality of light sensors positioned inside the column comprises detecting a level of blockage of the ambient light at each of a plurality of light sensors positioned inside the column, and determining, in response to detection of the level of blockage of the ambient light at each of the plurality of light sensors, the number of the gaming chips inside the column.

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